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Buckling collapse of HDPE liners: Experimental set-up and FEM simulations
Abstract The purpose of this work is to provide a more complete framework for the development of short-term thermoplastic models to improve the design of liners subjected to external pressure. A device to perform short-term physical collapse buckling tests on HDPE liners to emulate in-service behavior under controlled conditions was designed and constructed. Tests were performed to explore the effect of temperature (in the range of 0–60°C) on the buckling parameters of a HDPE pipe confined in a steel host pipe. The constitutive model for this material was calibrated from compression and tensile tests, performed at various strain rates and temperatures. The Three Network viscoplastic material constitutive model was adopted to reproduce material behavior. Full 3D FEM simulations of collapse buckling tests were conducted and validated against experimental data. Once the 3D full FE model was verified a simplified 2D model was generated to perform an intensive parametric study considering many temperatures and pipe aspect ratios. With data arising from the parametric study a predictive Glock’s type function was derived, which takes into account the effect of temperature and the viscoplastic constitutive behavior of HDPE.
Graphical abstract Display Omitted
Highlights A framework for the investigation of short-term collapse of thermoplastic liners is developed. A device to perform physical collapse buckling tests on HDPE liners is constructed. The Three Network viscoplastic material constitutive model is adopted to reproduce material behavior. Full 3D FEM simulations is conducted and validated against experimental data. A predictive Glock’s type function was derived from 2D FE model.
Buckling collapse of HDPE liners: Experimental set-up and FEM simulations
Abstract The purpose of this work is to provide a more complete framework for the development of short-term thermoplastic models to improve the design of liners subjected to external pressure. A device to perform short-term physical collapse buckling tests on HDPE liners to emulate in-service behavior under controlled conditions was designed and constructed. Tests were performed to explore the effect of temperature (in the range of 0–60°C) on the buckling parameters of a HDPE pipe confined in a steel host pipe. The constitutive model for this material was calibrated from compression and tensile tests, performed at various strain rates and temperatures. The Three Network viscoplastic material constitutive model was adopted to reproduce material behavior. Full 3D FEM simulations of collapse buckling tests were conducted and validated against experimental data. Once the 3D full FE model was verified a simplified 2D model was generated to perform an intensive parametric study considering many temperatures and pipe aspect ratios. With data arising from the parametric study a predictive Glock’s type function was derived, which takes into account the effect of temperature and the viscoplastic constitutive behavior of HDPE.
Graphical abstract Display Omitted
Highlights A framework for the investigation of short-term collapse of thermoplastic liners is developed. A device to perform physical collapse buckling tests on HDPE liners is constructed. The Three Network viscoplastic material constitutive model is adopted to reproduce material behavior. Full 3D FEM simulations is conducted and validated against experimental data. A predictive Glock’s type function was derived from 2D FE model.
Buckling collapse of HDPE liners: Experimental set-up and FEM simulations
Rueda, F. (author) / Marquez, A. (author) / Otegui, J.L. (author) / Frontini, P.M. (author)
Thin-Walled Structures ; 109 ; 103-112
2016-09-09
10 pages
Article (Journal)
Electronic Resource
English
Buckling collapse of HDPE liners: Experimental set-up and FEM simulations
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